Moments Coherent-State Quantum Process Tomography ( McsQPT )

1. Moments Coherent-State Quantum Process Tomography (McsQPT) Joint work with: S. Rahimi-Keshari, A. T. Rezakhani, T. C. Ralph Masoud Ghalaii Nov. 2013

2. Basic concepts—Phase space, Wigner function, HD, … • Harmonic oscillator • Annihilation and creation operators • Phase space • Wigner function • Leonhardth, Measuring the Quantum State of Light (1997) • Garrison and Chiao, Quantum Optics (2008) +i

3. Some foremost quantum states—Alex Lvovsky laboratory • Smithy, et al. –PRL(1992)

4. Basic concepts—Homodyne detection, state tomography, … • [Balanced] homodyne detection • Characteristic function ; • Lvovsky and Raymer –RMP (2009) • Cahil and Glauber –Phys.Rev. (1969)

5. Quantum [optical] process tomography • A general dynamical map • Quantum process tomography • Two-mode squeezed vacuum • Coherent-stateQuantum Process Tomography • Mohseni, Rezakhani, and Lidar –PRA (2008) • D’Ariano and Lo Presti –PRL (2001) • Lobino, et al. –Science (2008) A set of fixedHermitian operators • Readily available in lab • Could be produce in many amplitudes and phases • Characterization of outputs by using HD

6. Coherent-state quantum process tomography (csQPT) • Glauber-Sudarshan Representation • Sudarshan –PRL (1963) || Glauber –PRL (1963) • Lobino, et al. –Science (2008) • Introductory Quantum Optics, Gerry and Knight (2005)

7. csQPT in Fock basis • Rahimi-Keshari, et al. –NJP (2011)

8. Normally-ordered moments—Definition • C. T. Lee–PRA (1992) New method: M-CS-QPT

9. csQPT by using moments—motivations • Prediction of non-classicality of process • Characterization of Gaussian processes • Direct measurement of moments • Shchukin and Vogel –PRA (2005) • Rahimi-Keshari, et al. –PRL (2013) • Some Gaussian processes • Amplification • Attenuation • Squeezing • Displacement • Thermalization • Identity • . . . Definition: A quantum process is nonclassical if it transforms an inputcoherent state to a nonclassical state.

10. csQPT by using moments—Formalism Scratch paper!

11. McsQPT—Formalism McsQPT—Formalism—Generalization (M-mode case) Some multi-mode processes - Beam splitter - Squeezers - Noises and loses - Entanglement-based protocols for Quantum Key Distribution (QKD) and Quantum Secret Sharing - Evolution of highly entangled multimode state, known as a cluster state • Adesso and Illuminati –arxiv(2005)

12. McsQPT—Other examples …

13. McsQPT—Gaussian processes—Gaussian states • Gaussian states • Mean value vector • Covariance matrix • Single-mode Gaussian state • Ferarro, et al. –arXiv (2005) ||Adessoand Illuminati –J.Phys.A. (2007)

14. McsQPT—Gaussian processes—Moments vs. R & V # of moments which completely characterize any M-mode Gaussian state is “M(M+2).”

15. McsQPT—Gaussian processes—Number of resources , , • Holevo and Werner –PRA (2001) || Weedbrook, et al. –RMP (2012)

16. = Proposition: Any trace-preservingM-mode Gaussian processcould be completely characterized using only “2M+ 1” input M-mode coherent state, which scales with number of modes, linearly.

17. McsQPT—Examples—Process of decoherence )   Thermal Bath Vacuum state Squeezed vacuum Thermal squeezed Richter and Vogel –PRA (2007)

18. McsQPT—Examples—Process of decoherence Reminder!

19. Thanks to you and thanks to Dr. Rezakhani Mohammad Mehbodi Maryam Afsary

20. Backup slide—1 Breitenbach, et al. –Nature (1997)

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